微激光辅助加工改善未抛光硅片表面光洁度

Q3 Engineering

International Journal of Abrasive Technology Pub Date : 2015-12-23 DOI:10.1504/IJAT.2015.073805

H. Mohammadi, H. Poyraz, Deepak Ravindra, J. Patten

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引用次数: 17

摘要

在本研究中，单点金刚石车削(SPDT)与微激光辅助加工(µ-LAM)技术相结合，加工未抛光的单晶硅(100)晶圆。由于这种材料的硬度，硅(Si)的SPDT可能是一个极具磨蚀性的过程。由于这种材料的高硬度、脆性和较差的可加工性，制造这种材料而不造成表面和次表面损伤是极具挑战性的。然而，由于单点金刚石工具尖引起的高压缩和剪切应力引起的材料中发生的高压相变(HPPT)，硅的延展性加工是可能的。μ -LAM系统用于优先加热和热软化与金刚石切削工具接触的工件材料。比较和分析了不同组实验的表面粗糙度(Ra, Rz)和切割深度(DoC)。

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Surface finish improvement of an unpolished silicon wafer using micro-laser assisted machining

In this research single point diamond turning (SPDT) is coupled with the micro-laser assisted machining (µ-LAM) technique to machine an unpolished single crystal silicon (100) wafer. SPDT of silicon (Si) can be an extremely abrasive process due to the hardness of this material. Manufacturing this material without causing surface and subsurface damage is extremely challenging due to its high hardness, brittle characteristics and poor machinability. However, ductile regime machining of Si is possible due to the high pressure phase transformation (HPPT) occurring in the material caused by the high compressive and shear stresses induced by a single point diamond tooltip. The µ-LAM system is used to preferentially heat and thermally soften the workpiece material in contact with the diamond cutting tool. Different outputs such as surface roughness (Ra, Rz) and depth of cut (DoC) for different sets of experiments with and without the laser were compared and analysed.

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来源期刊

International Journal of Abrasive Technology Engineering-Industrial and Manufacturing Engineering

CiteScore

0.90

自引率

0.00%

发文量